2019
DOI: 10.1016/j.msec.2018.12.061
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Design and fabrication of biocompatible wrinkled hydrogel films with selective antibiofouling properties

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Cited by 21 publications
(24 citation statements)
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“…In Figure 6 are plotted the tendency of both the amplitude and the wavelength of the wrinkled patterns formed as a function of the vacuum exposure times. These results were obtained from a specially designed image analysis code based on MatLab [ 8 , 37 ], which measures automatically the width and the height of the wrinkles from a multi-level Otsu segmented image. The width of each wrinkle is obtained from the image Hough transformation (ellipse adjustment) and the height is estimated from a Gaussian single-peak fitting of the AFM micrograph profiles ( Figure 5 ).…”
Section: Resultsmentioning
confidence: 99%
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“…In Figure 6 are plotted the tendency of both the amplitude and the wavelength of the wrinkled patterns formed as a function of the vacuum exposure times. These results were obtained from a specially designed image analysis code based on MatLab [ 8 , 37 ], which measures automatically the width and the height of the wrinkles from a multi-level Otsu segmented image. The width of each wrinkle is obtained from the image Hough transformation (ellipse adjustment) and the height is estimated from a Gaussian single-peak fitting of the AFM micrograph profiles ( Figure 5 ).…”
Section: Resultsmentioning
confidence: 99%
“…In this context, surface properties have been reported to be critical in the development of novel biomaterials. Accordingly, it has been possible to fabricate selective biofouling surfaces which can stimulate cell growth while avoiding bacterial colonization, just by changing the scale of the micro-patterns present on the surface [ 8 ].…”
Section: Introductionmentioning
confidence: 99%
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“…The application of Fourier analysis for periodic feature size determination could be used to quantify how changes in material preparation parameters affect resulting properties including but not limited to elastic modulus, hydrophobicity or hydrophilicity, conductivity, adhesion, fouling, stretchability, and optical properties. Specifically, accurate characterization of periodic feature size could be applied to many areas of study including the extraction of mechanical moduli from buckled films; [15,16,22,23] assessment of how drying or crosslinking parameters affect the topography of wrinkled hydrogel systems; [43] analysis of cell growth, proliferation, and alignment as a function of surface topography; [44,45] quantification of the effect of structure size on anti-fouling properties; [26] and the characterization of current and resistance of stretchable electronics as a function of wrinkle size. [24]…”
Section: Fourier Analysis Of Thermally Structured Goldmentioning
confidence: 99%
“…[6,19,20] Recently developed surface structuring methods take advantage of surface instabilities that arise from strain dissipation in rigid materials. Surface wrinkling is an extensively studied example of structuring based on surface instabilities, and has been used to produce functional materials with controllable properties, such as mechanical properties, [15,16,22,23] wettability, [13,20] conductivity, [4,24] cell proliferation, [25] adhesion, [13] anti-fouling, [25,26] stretchability, [13,24] and optical properties. [15] These structuring techniques make it possible to engineer materials with tunable properties, which has aided in the development of smaller, more cost effective, and higher sensitivity materials.…”
Section: Introductionmentioning
confidence: 99%